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Autumn 2014 Lectures
Conventional Magnets for Accelerators
Fundamentals of RF
Introduction to Accelerators
Relativity and Elements of Electromagnetism
Transverse and Longitudinal Beam Dynamics
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Introduction to Accelerators
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Syllabus:
Lecture 1:
Early history; basic beam dynamics; synchrotron radiation; DL programmes – NINA and SRS.
Lecture 2:
Technology challenges at energy frontier; LEP + LHC; next generation colliders.
Lecture 3:
ISIS and new spallation sources; neutrino factory R&D; FFAG and EMMA; generic proton accelerator developments.
Lecture 4:
Modern light sources; undulator technology; Diamond; ERLs – ALICE; FEL concepts and examples; recent proposed light sources.
Level:
All of the subject matter is introductory, with little mathematics but concentration on concepts illustrated by examples
Pre-requisites:
A physics degree (probably) and an interest in the subject (hopefully).
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Syllabus:
Lecture 1: Early history; basic beam dynamics; synchrotron radiation; DL programmes – NINA and SRS.Lecture 2: Technology challenges at energy frontier; LEP + LHC; next generation colliders.
Lecture 3: ISIS and new spallation sources; neutrino factory R&D; FFAG and EMMA; generic proton accelerator developments.
Lecture 4: Modern light sources; undulator technology; Diamond; ERLs – ALICE; FEL concepts and examples; recent proposed light sources.
Level:
All of the subject matter is introductory, with little mathematics but concentration on concepts illustrated by examplesPre-requisites:
A physics degree (probably) and an interest in the subject (hopefully).